Selenium, a trace element that is fundamental to human health, is incorporated into some proteins as selenocysteine (Sec), generating a family of selenoproteins. Sec incorporation is mediated by a multiprotein complex that includes Sec insertion sequence-binding protein 2 (SECISBP2; also known as SBP2). Here, we describe subjects with compound heterozygous defects in the SECISBP2 gene. These individuals have reduced synthesis of most of the 25 known human selenoproteins, resulting in a complex phenotype. Azoospermia, with failure of the latter stages of spermatogenesis, was associated with a lack of testis-enriched selenoproteins. An axial muscular dystrophy was also present, with features similar to myopathies caused by mutations in selenoprotein N (SEPN1). Cutaneous deficiencies of antioxidant selenoenzymes, increased cellular ROS, and susceptibility to ultraviolet radiation-induced oxidative damage may mediate the observed photosensitivity. Reduced levels of selenoproteins in peripheral blood cells were associated with impaired T lymphocyte proliferation, abnormal mononuclear cell cytokine secretion, and telomere shortening. Paradoxically, raised ROS in affected subjects was associated with enhanced systemic and cellular insulin sensitivity, similar to findings in mice lacking the antioxidant selenoenzyme glutathione peroxidase 1 (GPx1). Thus, mutation of SECISBP2 is associated with a multisystem disorder with defective biosynthesis of many selenoproteins, highlighting their role in diverse biological processes.
In this study we have analyzed the interaction between in vitro cultured bone marrow stromal cells (BMSC) and NK cells. Ex vivo-isolated NK cells neoexpressed the activation Ag CD69 and released IFN-γ and TNF-α upon binding with BMSC. Production of these proinflammatory cytokines was dependent on ligation of ICAM1 expressed on BMSC and its receptor LFA1 on NK cells. Furthermore, the NKp30, among natural cytotoxicity receptors, appeared to be primarily involved in triggering NK cells upon interaction with BMSC. Unexpectedly, autologous IL-2-activated NK cells killed BMSC. Again, LFA1/ICAM1 interaction plays a key role in NK/BMSC interaction; this interaction is followed by a strong intracellular calcium increase in NK cells. More importantly, NKG2D/MHC-I-related stress-inducible molecule A and/or NKG2D/UL-16 binding protein 3 engagement is responsible for the delivery of a lethal hit. It appears that HLA-I molecules do not protect BMSC from NK cell-mediated injury. Thus, NK cells, activated upon binding with BMSC, may regulate BMSC survival.
Non-human primates are the animals closest to humans for use in influenza A virus challenge studies, in terms of their phylogenetic relatedness, physiology and immune systems. Previous studies have shown that cynomolgus macaques (Macaca fascicularis) are permissive for infection with H1N1pdm influenza virus. These studies have typically used combined challenge routes, with the majority being intra-tracheal delivery, and high doses of virus (> 107 infectious units). This paper describes the outcome of novel challenge routes (inhaled aerosol, intra-nasal instillation) and low to moderate doses (103 to 106 plaque forming units) of H1N1pdm virus in cynomolgus macaques. Evidence of virus replication and sero-conversion were detected in all four challenge groups, although the disease was sub-clinical. Intra-nasal challenge led to an infection confined to the nasal cavity. A low dose (103 plaque forming units) did not lead to detectable infectious virus shedding, but a 1000-fold higher dose led to virus shedding in all intra-nasal challenged animals. In contrast, aerosol and intra-tracheal challenge routes led to infections throughout the respiratory tract, although shedding from the nasal cavity was less reproducible between animals compared to the high-dose intra-nasal challenge group. Intra-tracheal and aerosol challenges induced a transient lymphopaenia, similar to that observed in influenza-infected humans, and greater virus-specific cellular immune responses in the blood were observed in these groups in comparison to the intra-nasal challenge groups. Activation of lung macrophages and innate immune response genes was detected at days 5 to 7 post-challenge. The kinetics of infection, both virological and immunological, were broadly in line with human influenza A virus infections. These more authentic infection models will be valuable in the determination of anti-influenza efficacy of novel entities against less severe (and thus more common) influenza infections.
The mechanisms by which adenomatous polyposis coli (APC) gene mutations contribute to colorectal tumourigenesis and progression are still not fully understood. Using in vitro mouse embryonic stem cells, APC mutations have been proposed to dysregulate the interactions between kinetochores and microtubules during mitosis, leading to chromosomal instability (CIN) and aneuploidy. A link between APC mutations and aneuploidy in vivo among human sporadic colorectal adenomas has not been reported previously and was therefore investigated in the present series of 61 adenomas. Multi-parameter flow cytometry, based on scattering and fluorescence from the DNA-specific 4,6-diamidino-2-phenylindole-2-hydrochloride (DAPI) dye, which separates epithelial from stromal lymphocyte nuclei, was used to evaluate the DNA index (DI) and to sort epithelial nuclei. Additionally, DNA extracted from these sorted nuclei was used to analyse APC mutations by DNA sequencing. Aneuploidy was present in 20 of 61 adenomas (33%), with 15 of these 20 cases (75%) having a near-diploid DI (DI different from 1 and less than 1.3). APC mutations were detected in 19 adenomas (31%): 12 were within or downstream of the mutation cluster region (MCR), roughly defined by codons 1200-1500, and seven were upstream of the MCR. Overall, the prevalence of aneuploidy in APC wild-type and mutated adenomas was 26% and 47%, respectively, and no statistically significant association was found between APC status and DI (p = 0.142). However, when APC mutations were subdivided into two groups, ie occurring within/downstream of the MCR and upstream of the MCR, the association of APC mutations within and downstream of the MCR with aneuploidy was statistically significant (p = 0.017). In conclusion, the present data suggest that the type of APC mutation may play a role in the origin of CIN in vivo in human sporadic colorectal adenomas and that APC mutations within and downstream of the MCR, and large-scale chromosomal alterations, may co-operate in the progression of a subgroup of adenomas.
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